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The radio therapy process planning
Slavíček, Tomáš ; Kolářová, Jana (referee) ; Hrozek, Jan (advisor)
This thesis aims to bring reader to the problems of radiotherapy, to give him an overview of basic principles and methods used to treat patients with cancer by ionizing radiation. The first part is devoted to the physical description of radiation and means of quantification. Interactions of radiation with matter are discussed next following with characterization of radiation effects on living cells and tissues. In the next part there is a description of the devices used in the treatment by ionizing radiation and an explanation of the various acts of patient's preparation from the target localization to irradiation. The final chapter describes created program with a graphical environment, which includes the key elements of commercial planning systems for the creation of the irradiation plan. This program uses real CT images and provides the user a basic idea of creating radiotherapeutic plan. The user has several functions for creating and optimizing the plan. The output of the program is a graphical representation of the spatial distribution of dose in the patient's body.
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Radiotherapy
Šipka, Petr ; Janoušek, Oto (referee) ; Kolářová, Jana (advisor)
The goal of this thesis is to familiarize readers with the basics of the problem of electromagnetic and ionizing radiation, with its effects on a biological tissues and with types of ionizing radiations used in a therapy. It deals with a medical procedures in therapy planning and with procedures during therapy itself. Part of this Bachelor’s thesis is an application Radiation Calculator processed in MatLab software. Application is modeling the resulting radiation field while setting various parameters.
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Design of Accelerator for Oncological Therapy
Zbořil, Jan ; Siebert, Petr (referee) ; John, David (advisor)
The aim of this diploma thesis is the design of linear accelerator for oncology treatment. The design focuses on the improvement of the aesthethical side of the accelator, but also comes up with inventional solutions how to improve the radiation treatment of oncology patients to higher the chances of successful treatment of cancer.
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Design and synthesis of surface architectures on fluorescent nanodiamonds
Havlík, Jan
anks to their unique properties and high biocompatibilities, fluorescent nanodiamonds are promising representatives of modern carbon nanomaterials with a broad range of applications. Nevertheless, their wider use is limited because of weak fluorescence intensity and low colloidal stability in the biological environment. e optimization of treatment procedures and development of new suitable surface designs is therefore critically needed. In this study, several key steps for fluorescent nanodiamond treatment have been optimized, leading to both a substantial increase in fluorescence intensity and to significantly lower surface damage caused by graphitization. Further, a new high-throughput irradiation technique was developed. e influence of surface chemistry on the fluorescence parameters was studied using partial fluorination of the functional groups on the nanodiamond surface. A novel method which significantly affects the interaction of nanodiamonds with biological systems by increasing of the homogeneity and circularity was developed. e potential of nanodiamonds for future medical and biological research was demonstrated on particles with complex surface architectures that enabled targeting and therapy of tumor cells. Moreover, a strong and highly selective affinity of fibroblast growth factors to diamond...
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Design and synthesis of surface architectures on fluorescent nanodiamonds
Havlík, Jan
anks to their unique properties and high biocompatibilities, fluorescent nanodiamonds are promising representatives of modern carbon nanomaterials with a broad range of applications. Nevertheless, their wider use is limited because of weak fluorescence intensity and low colloidal stability in the biological environment. e optimization of treatment procedures and development of new suitable surface designs is therefore critically needed. In this study, several key steps for fluorescent nanodiamond treatment have been optimized, leading to both a substantial increase in fluorescence intensity and to significantly lower surface damage caused by graphitization. Further, a new high-throughput irradiation technique was developed. e influence of surface chemistry on the fluorescence parameters was studied using partial fluorination of the functional groups on the nanodiamond surface. A novel method which significantly affects the interaction of nanodiamonds with biological systems by increasing of the homogeneity and circularity was developed. e potential of nanodiamonds for future medical and biological research was demonstrated on particles with complex surface architectures that enabled targeting and therapy of tumor cells. Moreover, a strong and highly selective affinity of fibroblast growth factors to diamond...
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Design of Accelerator for Oncological Therapy
Zbořil, Jan ; Siebert, Petr (referee) ; John, David (advisor)
The aim of this diploma thesis is the design of linear accelerator for oncology treatment. The design focuses on the improvement of the aesthethical side of the accelator, but also comes up with inventional solutions how to improve the radiation treatment of oncology patients to higher the chances of successful treatment of cancer.
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Design and synthesis of surface architectures on fluorescent nanodiamonds
Havlík, Jan ; Kotek, Jan (advisor) ; Lang, Kamil (referee) ; Štěpánek, František (referee)
anks to their unique properties and high biocompatibilities, fluorescent nanodiamonds are promising representatives of modern carbon nanomaterials with a broad range of applications. Nevertheless, their wider use is limited because of weak fluorescence intensity and low colloidal stability in the biological environment. e optimization of treatment procedures and development of new suitable surface designs is therefore critically needed. In this study, several key steps for fluorescent nanodiamond treatment have been optimized, leading to both a substantial increase in fluorescence intensity and to significantly lower surface damage caused by graphitization. Further, a new high-throughput irradiation technique was developed. e influence of surface chemistry on the fluorescence parameters was studied using partial fluorination of the functional groups on the nanodiamond surface. A novel method which significantly affects the interaction of nanodiamonds with biological systems by increasing of the homogeneity and circularity was developed. e potential of nanodiamonds for future medical and biological research was demonstrated on particles with complex surface architectures that enabled targeting and therapy of tumor cells. Moreover, a strong and highly selective affinity of fibroblast growth factors to diamond...
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Photochemical degradation of dissolved organic matter - the kinetics of insoluble particles
ŠAVRDOVÁ, Tereza
This bachelor thesis deals with the kinetics of the formation of insoluble substances. In the theoretical part we will deal with photochemistry, kinetics and organic substances. What forms of aluminum and iron can be found in aquatic environments with different pH values. In the experimental part we will examine the kinetics of the formation of insoluble particles in water after photochemical irradiation. We will find out how it changes the concentration of aluminum, iron and carbon according to the length of irradiation and how pH can affect the final result.
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Radiotherapy
Šipka, Petr ; Janoušek, Oto (referee) ; Kolářová, Jana (advisor)
The goal of this thesis is to familiarize readers with the basics of the problem of electromagnetic and ionizing radiation, with its effects on a biological tissues and with types of ionizing radiations used in a therapy. It deals with a medical procedures in therapy planning and with procedures during therapy itself. Part of this Bachelor’s thesis is an application Radiation Calculator processed in MatLab software. Application is modeling the resulting radiation field while setting various parameters.
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The radio therapy process planning
Slavíček, Tomáš ; Kolářová, Jana (referee) ; Hrozek, Jan (advisor)
This thesis aims to bring reader to the problems of radiotherapy, to give him an overview of basic principles and methods used to treat patients with cancer by ionizing radiation. The first part is devoted to the physical description of radiation and means of quantification. Interactions of radiation with matter are discussed next following with characterization of radiation effects on living cells and tissues. In the next part there is a description of the devices used in the treatment by ionizing radiation and an explanation of the various acts of patient's preparation from the target localization to irradiation. The final chapter describes created program with a graphical environment, which includes the key elements of commercial planning systems for the creation of the irradiation plan. This program uses real CT images and provides the user a basic idea of creating radiotherapeutic plan. The user has several functions for creating and optimizing the plan. The output of the program is a graphical representation of the spatial distribution of dose in the patient's body.
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